LCD/ Touch Base Board HD200, KSP-0115 · 2016. 12. 7. · 1. Setup and Getting Started Manual for KSP-0115 (LCD/Touch Base Board HD200) This manual describes PCB revision 4088.2 (schematics

Ein Produkt eines Unternehmens der PHYTEC Technologie Holding AG

KSP-0115LCD / Touch Base Board

HD200

Hardware Manual

Edition October 2004

KSP-0115-0 LCD / Touch Base Board

PHYTEC Meßtechnik GmbH 2004 L-644e_2

In this manual are descriptions for copyrighted products that are not explicitlyindicated as such. The absence of the trademark () and copyright () symbolsdoes not imply that a product is not protected. Additionally, registered patents andtrademarks are similarly not expressly indicated in this manual.

The information in this document has been carefully checked and is believed to beentirely reliable. However, PHYTEC Meßtechnik GmbH assumes noresponsibility for any inaccuracies. PHYTEC Meßtechnik GmbH neither gives anyguarantee nor accepts any liability whatsoever for consequential damages resultingfrom the use of this manual or its associated product. PHYTEC MeßtechnikGmbH reserves the right to alter the information contained herein without priornotification and accepts no responsibility for any damages which might result.

Additionally, PHYTEC Meßtechnik GmbH offers no guarantee nor accepts anyliability for damages arising from the improper usage or improper installation ofthe hardware or software. PHYTEC Meßtechnik GmbH further reserves the rightto alter the layout and/or design of the hardware without prior notification andaccepts no liability for doing so.

Copyright 2004 PHYTEC Meßtechnik GmbH, D-55129 Mainz.Rights - including those of translation, reprint, broadcast, photomechanical orsimilar reproduction and storage or processing in computer systems, in whole or inpart - are reserved. No reproduction may occur without the express writtenconsent from PHYTEC Meßtechnik GmbH.

EUROPE NORTH AMERICA

Address: PHYTEC Technologie Holding AGRobert-Koch-Str. 39D-55129 MainzGERMANY

PHYTEC America LLC203 Parfitt Way SW, Suite G100Bainbridge Island, WA 98110USA

OrderingInformation:

+49 (800) [email protected]

1 (800) [email protected]

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1 (800) [email protected]

Fax: +49 (6131) 9221-33 1 (206) 780-9135

Web Site: http://www.phytec.de http://www.phytec.com

2nd Edition October 2004

mailto:[email protected]:[email protected]:[email protected]:[email protected]://www.phytec.de/http://www.phytec.com/

Contents


Contents

1. Setup and Getting Started Manual for KSP-0115

(LCD/Touch Base Board HD200) ......................................................1

2. Interfaces and Connectors ..................................................................3

3. Jumper Configuration and Port Assignment....................................5

4. Peripheral Components on the LCD / Touch Base

Board HD200 .....................................................................................11

5. Important Note Concerning Production Units with PCB

Version 4088.2....................................................................................13

6. Revision History ................................................................................15

7. Product Options.................................................................................19

Index of Figures

Figure 1: KSP-0115-0 LCD/ Touch Base Board HD200.............................2Figure 2: Location of the Jumper.........................................................11

Getting Started with KSP-0015

PHYTEC Meßtechnik GmbH 2004 L-644e_2 1

1. Setup and Getting Started Manual for KSP-0115(LCD/Touch Base Board HD200)

This manual describes PCB revision 4088.2 (schematics 4088.2-001Rev. 1.0 as of 04/09/2004).

Dimensions:167 x 110 x 30 mm with mounting holes for direct assembly behind a5,7" ¼-VGA LCD display

Connections and on-board Features:• direct back-to-back assembly option for base board with LCD due

to same PCB size• universal connection for alternative LCDs (different

types/sizes/resolution/color)• touch connectivity (for LCD with analog resistive touch panel)• voltage regulator for CFL background supply (can be mounted

on-board)• supply voltage 8 - 30VDC (integrated DC/DC converter)• connection and potentiometer for LCD contrast regulation• connection for dial/encoder (JogDial, e.g. Grayhill)• 2* RS-232 connectors (DB-9 socket and header connectors)• 2* CAN connectors (DB-9 plug and header connectors) (1 of

them optional optically isolated)• 1* Ethernet connector (RJ45 socket, 2 LEDs)• 1* USB connector (USB1.1/2.0, full speed 12 Mbit, type B)• 1* PS/2 keyboard/mouse connector (miniDIN)• 1* Multimedia / SecureDigital Card (MM/SD card up to

512 MByte) socket• 8* analog input 0-10V/16-bit• 4* analog output 0-10V/10-bit• 8* digital input (opto-coupler) 24V• 8* digital output (opto-coupler) 24V/300mA active high• all interfaces and MCU ports available on header connectors

(2.54 mm spacing) for customer-specific expansions


2 PHYTEC Meßtechnik GmbH 2004 L-644e_2

The board supports the following features (depending on the chosenboard configuration and the underlying phyCOREmodule/microcontroller):

Supported phyCORE SBC modulesphyCORE-167/ST10 (PCM-009)phyCORE-167HSE/ST10 (PCM-018)phyCORE-XC161 (PCM-020)phyCORE-XC167 (PCM-021)phyCORE-ARM7/AT91 (PCM-014)

Supported Displays:Hitachi SP14/SX14/TX14 (320*240 pixel, 256 colors, STN, TFT ormonochrome).

Figure 1: KSP-0115-0 LCD/ Touch Base Board HD200

Interfaces and Connectors


2. Interfaces and Connectors

XK1 screw clamp for supply voltage (8 - 30 VDC/1A)XK3 screw clamp for supply of CFL inverter input (optional)XK4 screw clamp for supply of CFL inverter output (optional)X1 receptacle for phyCORE module HD200 (Molex)X2-5 connector rows with all controller signals (not buffered)

(2.54 mm pitch)X6(B) first RS-232 interface with reset function (for

C167/XC161additional bootstrap function) (DB-9 female)X7(B) second RS-232 interface (if supported by the

module/controller) (DB-9 female)X8(B) first CAN interface (if supported by the module/controller)

(DB-9 male, optical isolation option)X9(B) second CAN interface (if supported by the

module/controller) (DB-9 male)X10(B) analog inputs (8*) and analog outputs (4*)

(Wago S2L/3.5/n)X11(B) digital inputs (8* 24VDC) (Wago S2L/3.5/n)X12(B) digital outputs (8* 24VDC/300mA) (Wago S2L/3.5/n)X13(B) USB 2.0/1.1 interface (USB-B)X14 dial encoder interface (Grayhill 62A compatible) (AMP-

Micromatch)X15 PS/2 keyboard/mouse interfaceX16 universal LCD (STN/TFT) interface with all

signals/voltagesX17 color LCD flex connector (Hitachi SX14 compatible)X18 monochr. LCD flex connector (Hitachi SP14 compatible)X19 LCD-CFL connector (background illumination for LCD)X20 LCD/Touch connector (analog resistive touch panel) (Flex)X21 Ethernet TP10 interface (RJ45)X22 SPI interface / synchronous debug connection (PLS-UDE)X22B MM/SD card slot (socket with release button)JP1 connector for external contrast potentiometer



RES1 connector for external Reset button (/RESIN)BOOT connector for external Boot button /jumper (input for

C167/XC16x bootstrap loader at D4)

Miscellaneous:VCCLCD1 Jumper for configuration of LCD display supply voltage

1+2 = 3.3 V LCD (e.g. Hitachi SX14, color)2+3 = 5 V LCD (e.g. Hitachi SP14, monochrome)

COLTYP1 Jumper for configuration of color LCD type (+3 Vcontrast / +23 V contrast)1+2 = contrast voltage derived from VCC_LCD (e.g.Hitachi SX14)2+3 = contrast voltage derived from VEE+ (e.g. Lehner-Dabitros)

H1 signal indicator (buzzer), can be controlled via port pinBAT1 Lithium battery 3V (CR2032) = VBAT of the underlying

SBC module (RTC/RAM buffer)P1 contrast for color LCDP2 contrast for monochrome LCD (function enabled via P3)P3 contrast voltage LCD-VEE+/-P4 Reference voltage analog input 1..8 (full-scale)P5 Reference voltage analog output 1..4 (full-scale)R20 VEE-CTRL 1+2 = GND at MAX749-CTRLR21 VEE-ADJ 1+2 = GND at AMX749-ADJ

Jumper Configuration and Port Assignment


3. Jumper Configuration and Port Assignment

The following basic jumper settings on the LCD/Touch Base BoardHD200 are valid for the different phyCORE SBC module options:

When using a C167/ST10/XC16x-based module:J1 to J8 = closed at 1+2,J9 and J40 = closed at 2+3

When using the ARM7-based module:J1 to J8 = closed at 2+3,J9 and J40 = closed at 1+2

The following terminology is used in the jumper description below:

• "input" means input signal on the microcontroller/phyCOREmodule (Peripheral components on the LCD/Touch Base BoardHD200 provide an output.)

• "output" means output signal on the microcontroller/phyCOREmodule (Peripheral components on the LCD/Touch Base BoardHD200 provide an input.)

def. = factory default state



Jumper Default CommentJ1 RDY/Wait input from LCD controller (/WAIT = ARM,

/RDY = C167/XC16x)1 + 2 /Ready signal on C167/XC16x-based modules2 + 3 /Wait signal on ARM7-based modules

J2 MTSR (SPI-TX) output SPI bus (MOSI = ARM,SSC/P3.9 = C167/XC16x)

1 + 2 P3.9 (MTSR) on C167/XC16x-based modules2 + 3 PA25 (MOSI) on ARM7-based modules

J3 MRST (SPI-RX) input SPI bus (MISO = ARM,SSC/P3.8 = C167/XC16x)

1 + 2 P3.8 (MRST) on C167/XC16x-based modules2 + 3 PA24 (MISO) on ARM7-based modules

J4 SCLK (SPI Clock) Output SPI-Bus (SPCK = ARM,SSC/P3.13 = C167/XC16x)

1 + 2 P3.13 (SCLK) on C167/XC16x-based modules2 + 3 PA23 (SPCK) on ARM7-based modules

J5 Keyboard clock output / encoder A input (SCK0 = ARM,P2.13 = C167/XC16x)

1 + 2 P2.13 on C167/XC16x-based modules2 + 3 PA14 (SCK0) on ARM7-based modules

J6 /CSADC (SPI /CS for external ADC) output SPI bus(/PCS2 = ARM, P6.5 = C167/XC16x)

1 + 2 P6.5 on C167/XC16x-based modules2 + 3 PA28 (/PCS2) on ARM7-based modules

J7 /CSMMC (SPI /CS for MMC/SD card) output SPI bus(/PCS3 = ARM, P6.6 = C167/XC16x)

1 + 2 P6.6 on C167/XC16x-based modules2 + 3 PA29 (/PCS3) on ARM7-based modules

J8 /CDDA1 (SPI /CS for external DAC1) output SPI bus(/PCS0 = ARM, P6.7 = C167/XC16x)

1 + 2 P6.7 on C167/XC16x-based modulesPA26 (/PCS0) on ARM7-based modules2 + 3NOTE: /PCS0 typically controls the CAN controllerpopulating the PCM-014 module, it is only possible touse /PCS0 for either CAN or external DAC1 at any giventime!

J9 Configuration of the secondary supply voltage forphyCORE modules requiring VCC2.

1 + 2 5 V for ARM7-based modules2 + 3 2.5 V XC16x-based modules



Jumper Default CommentJ10 Configuration of CAN1 supply

1 + 2 VCC (not optically isolated, J22 must be closed as well!)2 + 3 Supply via CAN plug pin #9 (J22 must be open, optically

isolated)open CAN transceiver supplied via DC/DC converter at U25

(J22 must be open, optically isolated)J11 /TXE (transmitter empty) input from USB controller

(P2.9 = C167)closed /TXE signal at P2.9 on C167 resp. PA10 at ARM7

NOTE: PA10 typically controls the RDY input on theCAN controller populating the PCM-014 module, it isonly possible to use PA10 for either CAN or /TXE signalat any given time!

open Port P2.9 (C167) resp. PA10 (ARM7) freely available forother peripherals on the LCD/Touch base board.

J12 /RXF (receiver full) input from USB controller(P2.10 = C167)/RXF signal at P2.10 (C167) resp. PA11 (ARM7)NOTE: PA11 typically controls the interrupt input onthe Ethernet controller populating the PCM-014 module,it is only possible to use PA11 for either Ethernet IRQ or/RXF signal at any given time!

closed

open Port P2.10 (C167) resp. PA11 (ARM7) freely availablefor other peripherals on the LCD/Touch base board.

J13 /CSDA2 (SPI /CS for external DAC2) output SPI bus(/PCS1= ARM, P2.15 = C167)

1 + 2 X P2.15 on C1672 + 3 PA27 (/PCS1) on ARM7

NOTE: /PCS1 typically controls the serial EEPROMpopulating the PCM-014 module, it is only possible touse /PCS1 for either SPI /CS or serial EEPROM at anygiven time!

J14 VEEAdj output for MAX749 (DIO2 bit 6)

closed X VEEAdj. can be controlled via DIO2 bit 6.open VEEAdj. is set to 1 or 0 via R21 and can not be changed.

J15 VEECtrl output for MAX749 (DIO2 bit 7)

closed X VEECtrl can be controlled via DIO2 bit 7.open VEECtrl is set to 1 or 0 via P20 and can not be changed.



Jumper Default CommentJ16 ENA_CFL (display illumination ON/OFF), output

closed X P7.6 (C167) or PB14 (ARM7) can be used to turndisplay illumination ON or OFF, jumper J31 must beopen! (1 = on, 0 = off)

open P7.6 (C167) or PB14 (ARM7) are freely available,display illumination can not be switched

J17 BEEPER (buzzer H1 ON/OFF), output

closed X P7.7 (C167) or PB15 (ARM7) can be used to switchbuzzer H1 (1=on, 0=off)

open P7.7 (C167) or PB15 (ARM7) are freely available,buzzer can not be used

J18 Dial encoder switch, input, switch to GND for theoptional dial encoder at X14

closed X P5.14 (C167) or PA8 (ARM7) connected to switchoutput of dial encoder at X14

open P5.14 (C167) or PA8 (ARM7) are freely availableJ19 Digital Out Fail, input, error state output for optional

24 V digital output driversclosed X P5.13 (C167) or PA13 (ARM7) connected to Fail output

on 24V drivers (0=Error)open P5.13 (C167) or PA13 (ARM7) are freely available, no

error diagnosis option for 24V outputsJ22 CAN1 supply

closed X CANGND = GND (no isolation)open CANGND isolated from GND (with CAN supply via

CAN bus or DC/DC converter at U25)J20, J23 CAN1 transceiver selection

closed X Use CAN transceiver populating the phyCORE module,U24 must be unpopulated, no opto-isolation

open Use CAN transceiver at U24, or X8 unusedJ21, J24 CAN choke L6 option (internally used)

closed X CAN choke L6 not populatedopen CAN choke L6 is populated

J25, J26 CAN choke L7 option (internally used)

closed X CAN choke L7 not populatedopen CAN choke L7 is populated



Jumper Default CommentJ27 LCD bus clock (clock of the LCD controller)

closed Bus clock = LCD clockX OSZ1 unpopulated = CLKOUT of the CPU supplies

LCD clock(OZ1 populated = OZ1 supplies LCD and bus clock,NOTE!: CLKOUT of the CPU must beinactive/configured as input!)

open bus clock must be supplied from controller’s CLKOUTsignal, OZ1 supplies LCD clock

J28 LCD OFF signal generation (for internal use only!Type of LCD OFF signal generation

J29 LCD controller bus interface configuration(A0 and /BHE or /WRL and /WRH)

3 + 5, 4 + 6 /WRL and /WRH signals used (only with phyCORE-167, PCM-009)

1 + 3, 2 + 4 X /WR and /BHE signals used (C167 on PCM-018 andARM7, PCM-014NOTE: this jumper setting must match the moduleconfiguration, e.g. on PCM-018 settings for J34 andJ35!

J30 Reset signal via RS-232 interface lines RTS or CTS, pin#6 or #7 on DB-9 connector X6

1 + 2 RTS signal at X6 (pin #6 on DB-9) can be used tocontrol the /RESET signal of the CPU (1 = active)

2 + 3 CTS signal at X6 (pin #7 on DB-9) can be used tocontrol the /RESET signal of the CPU (1 = active)

J30B Boot signal (on C167/ST10 only!) via RS-232 interfacelines DTR or DSR, pin #4 or #8 on DB-9 connector X6

1 + 2 DTR signal at X6 (pin #8 on DB-9) can be used tocontrol the BOOT signal of the CPU (1 = active)

2 + 3 DSR signal at X6 (pin #4 on DB-9) can be used tocontrol the BOOT signal of the CPU (1 = active)

J31 CFL switch option

closed CFL inverter always connected to VCC (LCDillumination is always on)

open X CFL inverter can be switched on and off via ENABKL(also refer to J16)



Jumper Default CommentJ32 CFL inverter supply

closed X CFL inverter voltage derived from 5V board mainsupply (VCC5)

open CFL inverter can be supplied via XK3/XK4 (for externalCFL inverter)

J33 CFL inverter configuration

1 + 2 full inverter power on one LCD backlight tube(10 mA/4.5 W)

2 + 3 half inverter power on one LCD backlight tube(6 mA/2.7 W)

open X half inverter power on one LCD backlight tube(second output free, 2* 5 mA / 2.25 W)

J34 Type of 24 V output driver (for internal use only!)

closed 18-pin type output driver (UDN2981/82)open 20-pin type output driver (UDN2987)

J35 ON/OFF input on switching regulator U18

open X Soft start1 + 2 ON2 + 3 OFF

J40 VCC supply for phyCORE module configuration,VCC = 5 V or 3.3 V

1 + 2 VCC = 3.3 V (for ARM7 module, PCM-014)2 + 3 X VCC = 5 V (for all C167/XC16x and ST10-based

modules)J36/37 Option for wiring port lines as digital inputs instead of

DIO1

J38/39 Option for wiring port lines as digital outputs instead ofDIO1 (requires removing U36!)

Please note the current jumper configuration on the phyCOREmodules used in conjunction with this LCD / Touch Base BoardHD200 (refer to the corresponding phyCORE Hardware Manual).

Figure 2 indicates the location of the Jumpers (see the next side).

Peripheral Components


4. Peripheral Components on the LCD / Touch BaseBoard HD200

Address Decoding (when used with C167-based module):

/CS0 = not used (used on the phyCORE module)/CS1 = not used (used on the phyCORE module)/CS2 = see memory map for CSx below.

(Must not be used on-board on the phyCORE module!)/CS3ff = not used (can/could be used on the phyCORE module)

Address Decoding (when used with ARM7-based module):

/CS0 = not used (used on the phyCORE module)/CS1 = not used (used on the phyCORE module)/CS2 = not used (used on the phyCORE module)/CS3 = see memory map for CSx below.

(Must not be used on-board on the phyCORE module!)/CS4ff = not used (can/could be used on the phyCORE module)

Memory Map:

/CSx+00000 = UART/Ethernet (instead of optional UART onphyCORE-167)

/CSx+20000 = USB controller/CSx+40000 = LCD controller/CSx+60000 = 24V digital I/O (/RD = read inputs, /WR = set outputs)/CSx+80000 = DIO2 (/WR = internal functions, see "register/ports")/CSx+A0000 = external /CS-IO1 (freely available)/CSx+C0000 = external /CS-IO2 (freely available)/CSx+E0000 = external /CS-IO3 (freely available)



Memory mapped registers and ports:

Write access to the registers/ports is done via DIO2. These registersare reset after power-on/reset (value = 0).

Bit0..2 Analog input 1...8 (channel selection is binary decoded000=AIN1, ...111=AIN8)

Bit3 24 V digital output reset (0 = reset = outputs disabled,1 = outputs active)

Bit4 Touch X out (1 = ON, X-axis is supplied and can be readvia AN1)

Bit5 Touch Y out (1 = ON, Y-axis is supplied and can be readvia AN0)

Bit6 VEEAD for adjusting the contrast voltage using theMAX749 (for mono LCD SP14.)

Bit7 VEECTRL for contrast voltage on/off switching using theMAX749 (for mono LCD SP14.)

(Bit6+7 low = shut down, Bit6 high+Bit7 low = reset mid-range,Bit6 low-high+Bit7 high = increment voltage)

Note:The optional analog I/Os are also supplied via VEE+/VEE- that isused for contrast voltage. This means that the contrast voltage must beturned on in order to use the analog 0...10 V I/Os (and the voltagemust be at least +/-18 V)!

On-board temperature sensor U33 (LM50C) at AN2:

This sensor can measure the PCB temperature in a range from -40°Cto +125°C and queried via controller internal analog input Bit2.

Notes on PCB Revision 4088.2


5. Important Note Concerning Production Units withPCB Version 4088.2

All LCD / Touch Base Board HD200 units with this PCB version areconfigured for use with the PCM-018 (phyCORE-167HSE) and acolor LCD (Hitachi SX14Q001) at the time of delivery.

The oscillator output on the microcontroller must be activated(20 - 40 MHz).

In order to activate the on-board inverter for the display backgroundillumination port P7.6 (on C167) or PB14 (on PCM-014/ARM7) mustbe set to 1 (high). As an alternative jumper J31 can be closed.

Required Configuration Changes on the PCM-018:Open J8 (CS2=/CSUART), open J26 (P214=ETH/Sleep)Check configuration of J34+35 (BHE/WRL must match to setting ofJP29 on the base board).

For operation with a monochrome displays the contrast voltage VEEmust be activated with VEEAD/VEECTRL via the memory mappedregister DOI2 (set Bit 6+7 = 1).

For power supply of the analog input multiplexers the +/-15 V voltagemust be activated first via VEEAD/VEECTRL (settingDIO2 Bit6 + 7 = 1). As an alternative, resistors R20/R21 can be setaccordingly and jumpers J14/J15 be opened.

ARM7/PCM-014:

A long resp. manual reset is required due to the fact the backupvoltage is generated from VCC. The reason for that is that the resetsignal for the backup controller is delayed for a typical value of onesecond in order to guarantee a proper startup of the backup controllerfollowing power-on (refer to the AT91M55800EC.pdf data sheet,page 8 for more information).

Always refer to the corresponding PHYTEC Hardware Manual andthe underlying microcontroller Data Sheet and User’s Manual foradditional information about using the phyCORE module on theLCD / Touch Base Board HD200.

Revision History


6. Revision History

PCB number 4088.2 (schematics 4088.2-001 revision 1.0 dated04/09/2004) changes from previous version:

* J41 deleted, DigitalOut register can no longer be turned off.

* All registers and digital outputs are at a defined low (o) lever after/Reset!

* J30 deleted, VEE- now hard-wired to mono LCD (X18 pin 12)

* J30 and J30B with new functions: Boot/Reset via RS-232 (Bootonly with C167)These signals can now be routed to different pins on the DB-9connector.

* XK2 deleted: 24 V supply voltage for digital outputs can besupplied via X12.

* Touch connection: improved circuitry and connector moved to thelower left side of the board (matching the Hitachi display layout).



Verified Functions on PCB revision 4088.1:

XK1 Screw clamp for supply voltage (8–30 VDC)(test voltage 7 to 34 VDC) ok

XK2 Screw clamp for digital output supply voltage (8-30 VDC) okX1 Receptacle connector for phyCORE HD200 (Molex)

supporting phyCORE modules PCM-009,-014,-018,-020 okX2-5 Connector rows with all controller signals (not buffered)

(2.54 mm pitch) okX6(B) First RS-232 interface with Reset

(on C167/XC161 also Boot) function (DB9f) okX10(B) Analog inputs/outputs (0-10V) via SPI bus on C167 okX11(B) Digital 24 V inputs (optically isolated) okX12(B) Digital 24 V outputs (optically isolated) okX13(B) USB 1.1/2.0 full speed (12Mbit/s) interface (USB-B) on PC okX14 Dial encoder interface (Grayhill 62A compatible)

(AMP-Micromatch) okX15 PS/2 Keyboard interface okX17 Color-LCD Flex connector (Hitachi SX14Qxxx

compatible) okX18 Mono-LCD Flex connector (Hitachi SP14Qxxx

compatible) okX19 LCD-CFL connector (background illumination for LCD

incl. on/off circuitry via P7.6) okX20(b) Touch connector for AC041 okX21 Ethernet TP10 interface (RJ45) (incl. D21,D22

LANLED, LinkLED) okX22 SD/MM Card no

RES1 Connector for external Reset push button (/RESIN) okBOOT Connector for external Boot push button or jumper (input

for C167 bootstrap loader at D4) okVCCLCD1 Jumper for selecting the supply voltage on LCD displays okCOLTYP1 Jumper for selecting the color LCD type

(+3 V contrast/+23 V contrast) okH1 Buzzer (Summer), controlled via Port P7.7 okP1 Contrast color LCD ok

Revision History


P2 Contrast mono LCD(VEE must be pre-configured via P3!) ok

P3 Contrast voltage LCD-VEE+/- okP4 Reference voltage for 0..10V/16-bit analog inputs okP5 Reference voltage for 0..10V/10-bit analog outputs ok

LCD / Touch Base Board Power Consumption (mA / W):

Configuration

Input Voltage

PCM-009(C167CR-20with SX14 ColorLCD and 100%Backlight Proto

PCM-018(C167CS-40)Proto

PCM-018(C167CS-40)with LCD and100% BacklightProto

ARM7without LCDProto

ARM7 withSX14 ColorLCD and 100%Backlight0-series

9°VDC 220 / 700 160 75012°VDC 120 / 500 120 55015°VDC 90 / 400 100 44024°VDC 58 / 250 65 270

Product Options


7. Product Options

Part # Description

KSP-0115-0 LCD Base board without external digital/analog I/OsKSP-0115-1 LCD Base board with all I/Os and connector clampsKSP-0115-T1 TFT adapter for LCD Base board (for Sharp/NEC

TFT incl. data cable)KSP-0115-T2 TFT adapter for LCD Base board (for Hitachi

TX14D11 TFT incl. data cable)

AC036 LCD display color 5,7“ 320x240 256 colors(Hitachi SX14Q001)

AC035 LCD display mono 5,7“ 320x240 black/white(Hitachi SP14Q002)

AC024 LCD display mono 5,7“ 320x240 blue/white(Hitachi SP14Q003)

AC042 TFT display color 5,7” 320x240 256 colors(Hitachi TX14D11VM)

AC041 Touch Add-on for 5,7“ Hitachi LCD displays(analog resistive)

Additional Displays (Sharp/NEC/etc.) as well as othermanufacturers available upon request.

SO-412 USB driver for microcontroller and PC/Win98+/2k/XPSO-413 PS/2 keyboard (ASCII strings) and dial encoder driverSO-415 MM/SD Card driver for microcontrollerSO-414 MM/SD Card DOS-FAT library for microcontroller

(Source)SO-414-O MM/SD-Card DOS-FAT library for microcontroller

(Object)SO-414-E MM/SD-Card DOS-FAT library for microcontroller

(Developer)SO-414-R MM/SD Card DOS-FAT runtime licenseSO-419 LCD Controller driver (source) for microcontroller



SO-416 LCD graphic library mono with bitmap converter andsimulator

SO-417 LCD graphic library color with bitmap converter andsimulator (source)

SO-417-O LCD graphic library color with BMP converter andsimulator (object)

SO-417-E LCD graphic library color with BMP converter andsimulator (developer)

SO-417-R LCD graphic library color runtime licenseSO-418 LCD-Windows Manager API for LCD graphic library

(mono+color)SO-418-E LCD-Windows Manager API for LCD graphic library

(developer)SO-418-R LCD Windows manager runtime license

PCM-009 phyCORE-C167/ST10PCM-018 phyCORE-C167/ST10-HSEPCM-014 phyCORE-ARM7/AT91M55800APCM-020 phyCORE-XC161PCM-021 phyCORE-XC167

We also offer additional products, configurations, expansionoptions, tools and integration services.

Please contact PHYTEC for quantity prices and discounts.

Suggestion for Improvement


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Return to:PHYTEC Technologie Holding AGPostfach 100403D-55135 Mainz, GermanyFax : +49 (6131) 9221-33

Published by

PHYTEC Meßtechnik GmbH 2004 Ordering No. L-644e_2Printed in Germany

1.Setup and Getting Started Manual for KSP-0115 (LCD/Touch Base Board HD200)2.Interfaces and Connectors3.Jumper Configuration and Port Assignment4.Peripheral Components on the LCD / Touch Base Board HD2005.Important Note Concerning Production Units with PCB Version 4088.26.Revision History7.Product Options

Documents

LCD/ Touch Base Board HD200, KSP-0115 · 2016. 12. 7. · 1. Setup and Getting Started Manual for KSP-0115 (LCD/Touch Base Board HD200) This manual describes PCB revision 4088.2 (schematics